Suppressing decoherence in quantum plasmonic systems by the spectral-hole-burning effect
Suppressing decoherence in quantum plasmonic systems by the spectral-hole-burning effect
Quantum plasmonic systems suffer from significant decoherence due to the intrinsically large dissipative and radiative dampings. Based on our quantum simulations $via$ a quantum tensor network algorithm, we numerically demonstrate the mitigation of this restrictive drawback by hybridizing a plasmonic nanocavity with an emitter ensemble with inhomogeneously broadened transition frequencies. …